CHP Max Headend Optics Platform CHP CORWave II 1 GHz C Band DWDM Forward Transmitters FEATURES Consolidation or elimination of OTNs and node splitting by harvesting plant assets with up to 16 full spectrum ITU wavelengths on a single fiber 16 dbm output option helps eliminate the need for EDFAs saving cost and complexity in many designs Externally modulated transmitters do not require dispersion compensation in redundant architectures and can support repeated amplifications and long links Configure, monitor, and manage with CORView Element Management System PRODUCT OVERVIEW The CHP CORWave II 1 GHz C Band multiwavelength forward transmitter in the CHP form factor is capable of multiplexing up to 16 ITU full spectrum wavelengths in the 1150 nm range over as little as one fiber, saving cable operators capital that they would otherwise have to spend on new fiber runs. As part of the CORWave II ITU multiwavelength plan, the CHP CORWave also allows operators to run new revenue generating business services alongside residential services. With long reach capabilities in an all digital environment, the CHP CORWave II is flexible enough to consolidate or eliminate OTN sites and split nodes in distant locations.
Increase Revenue Faster Operators with a large base of active CHP Max5000 Converged Headend Platform can use the CHP CORWave II to deploy new, revenue generating services, reduce complexity for existing deployments, and transition easily to new CHP installs. In addition, the rapidly deployable CHP CORWave II complements all CHP Max5000 application modules and components and adds robust and scalable capacity at a cost effective price point. For added operational value, operators can monitor CORWave II transmitters via the CORView Element Management System, which provides an intuitive and user friendly interface for security, discovery, configuration, and inventory functions. Reduce Complexity The CHP CORWave II supports full spectrum broadcast and narrowcast capability at 54 1006 MHz, with BC/NC signal combining done in the environmentally controlled headend or hub. This allows narrowcast tiers to be easily added in an analog environment, and protects investment during the migration to all digital without stranded capital. Available in: 16 dbm variable output Front or Rear fiber Extended linearized version 10 dbm fixed output Front or Rear fiber Extended linearized version RELATED PRODUCTS CHP Chassis Power Supplies Management Module Optical Patch Cords Optical Passives Installation Services
APPLICATIONS The following diagrams depict typical applications for combining four, eight, and 16 CHP CORWave II ITU wavelengths in forward paths that are multiplexed onto a single fiber. For minimal SBS fiber impairments the recommended launch power is 11 dbm per wavelength for one to four wavelengths, 10 dbm per wavelength for eight wavelengths per fiber, and 7 dbm per wavelength for 16 wavelengths. This facilitates immediate forward path segmentation and reduces the node service group size. Follow the implementation requirements listed in the table on the next page to ensure a successful implementation. Contact ARRIS for implementation details and solutions for other applications.
Implementation Requirements for Content Loading per Wavelength Per Fiber* 54 250 MHz 250 MHz 1 GHz Analog Content per wavelength Common content Common content Digital Content per wavelength Common content Common or Unique content * Different fibers may carry different content as long as the above implementation requirements per wavelength are met SPECIFICATIONS Optical Wavelength Output Power 1525 to 1565 nm, 16 optimized wavelengths 9.5 dbm, typical RF Operating Bandwidth Channel loading Input RF Power RF Input Impedance Flatness Test Point 45 to 1006 MHz 79 analog channels plus 75 QAM channels (6 db below analog) 30 analog channels plus 125 QAM channels (6 db below analog) 155 QAM channels, 6 MHz QAM channels 14 dbmv for 79 analog channels with 75 QAM channels @ 6 db 16 dbmv for 30 analog carriers with 125 QAM channels @ 6 db 12 dbmv for 155 QAM 75 Ω ±1.0 db 20 ±1.0 db Typical Link Performance CCNR 50 db for 79 analog channels, 75 QAM channels (6 db below analog) 1,2 50 db for 30 analog channels, 125 QAM channels (6 db below analog) 2,3 MER 38 db (for all three cases) 1,4 BER 1E 8 (Annex B test) (for all three cases) CSO 58 dbc for 79 analog channels, 75 QAM channels (6 db below analog) 1,2 60 dbc for 30 analog channels, 125 QAM channels (6 db below analog) 2,3 CTB 58 dbc for 79 analog channels, 75 QAM channels (6 db below analog) 1,2 60 dbc for 30 analog channels, 125 QAM channels (6 db below analog) 2,3
SPECIFICATIONS CONTINUED Electrical/Environmental/Mechanical Power Consumption Optical Connector RF Connector Control Interface 27 W typical (16 dbm), 18 W typical (10 dbm) SC/APC F type CORView Enterprise Element Manager Software or CORView Lite Element Manager Software Dimensions, W x H x D, in (cm) 1.25 x 3.4 x 18.5 (3.2 x 8.7 x 47.0) Weight, lbs (kg) 2.75 (1.24) Operating Temperature Range Storage Temperature Range Humidity 32 F to 122 F (0 C to 50 C) 4 F to 140 F ( 20 C to 60 C) 85%, noncondensing, max. Notes: 1. CNR, MER, and CSO/CTB may degrade up to 0.5, 0.5, and 2.0 db, respectively, over full operating temperature range and overall polarization states. 2. Link performance based on 8 wavelengths over 40km or 16 wavelengths over 20 km, including optical passives, at the receiver, 79 NTSC channels measured according to standard procedures, and 0 dbm into the receivers. 3. Link performance based on 8 wavelengths over 40km or 16 wavelengths over 20 km, including optical passives, at the receiver, 30 NTSC channels measured according to standard procedures, and 0 dbm into the receivers. 4. Link performance based on 8 wavelengths over 40km or 16 wavelengths over 20 km, including optical passives, at the receiver, measured with respect to ITU Annex B. Implementation Requirements for One Fiber Multiwavelength Applications Unique Requirements Maximum launch power/wavelength 11 dbm (single wavelength), 11 dbm (4 wavelengths), 10 dbm (8 wavelengths), 7 dbm (16 wavelengths) Common Requirements Analog Content Must use common analog content Digital Content Must use common digital content below 250 MHz 1 Analog RF Input Level 16 dbmv/channel, 2 14 dbmv/channel 3 Digital RF Input Level 10 dbmv/channel, 2 8 dbmv/channel 3 Notes: 1. Unique digitally modulated narrowcast content only permitted above 250 MHz. 2. 30 analog channels, 125 QAM channels (6 db below analog). 3. 79 analog channels, 75 QAM channels (6 db below analog).
Ordering Information 1 2 3 4 5 6 7 C H P C 2 M W 0 1 x x S 1 Loading M NTSC E EURO 2 Fiber W Rear F Front 5 6 Optical Power 09 09 dbm output minimum 16 16 dbm output 7 Connector Type S SC/APC 3 Power 0 Fixed V Variable 4 Wavelength 1 ITU 21 2 ITU 22 3 ITU 24 4 ITU 26 5 ITU 28 6 ITU 33 7 ITU 36 8 ITU 39 9 ITU 44 10 ITU 48 11 ITU 52 12 ITU 54 13 ITU 57 14 ITU 60 15 ITU 61 16 ITU 62 Customer Care Contact Customer Care for product information and sales: United States: 866 36 ARRIS International: +1 678 473 5656 Note: Specifications are subject to change without notice. Copyright Statement: ARRIS Enterprises, Inc. 2015 All rights reserved. No part of this publication may be reproduced in any form or by any means or used to make any derivative work (such as translation, transformation, or adaptation) without written permission from ARRIS Enterprises, Inc. ( ARRIS ). ARRIS reserves the right to revise this publication and to make changes in content from time to time without obligation on the part of ARRIS to provide notification of such revision or change. ARRIS and the ARRIS logo are all registered trademarks of ARRIS Enterprises, Inc. Other trademarks and trade names may be used in this document to refer to either the entities claiming the marks and the names of their products. ARRIS disclaims proprietary interest in the marks and names of others. The capabilities, system requirements and/or compatibility with third party products described herein are subject to change without notice. CHPCORWaveII_DS_18SEP14 (rev 9-2014)